Chaste Release::3.1
|
00001 /* 00002 00003 Copyright (c) 2005-2012, University of Oxford. 00004 All rights reserved. 00005 00006 University of Oxford means the Chancellor, Masters and Scholars of the 00007 University of Oxford, having an administrative office at Wellington 00008 Square, Oxford OX1 2JD, UK. 00009 00010 This file is part of Chaste. 00011 00012 Redistribution and use in source and binary forms, with or without 00013 modification, are permitted provided that the following conditions are met: 00014 * Redistributions of source code must retain the above copyright notice, 00015 this list of conditions and the following disclaimer. 00016 * Redistributions in binary form must reproduce the above copyright notice, 00017 this list of conditions and the following disclaimer in the documentation 00018 and/or other materials provided with the distribution. 00019 * Neither the name of the University of Oxford nor the names of its 00020 contributors may be used to endorse or promote products derived from this 00021 software without specific prior written permission. 00022 00023 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" 00024 AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 00025 IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 00026 ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE 00027 LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 00028 CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE 00029 GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 00030 HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 00031 LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT 00032 OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 00033 00034 */ 00035 00036 #include "PottsMeshWriter.hpp" 00037 #include "Version.hpp" 00038 00042 template<unsigned SPACE_DIM> 00043 struct MeshPottsWriterIterators 00044 { 00046 typename AbstractMesh<SPACE_DIM,SPACE_DIM>::NodeIterator* pNodeIter; 00048 typename PottsMesh<SPACE_DIM>::PottsElementIterator* pElemIter; 00049 }; 00050 00052 // Implementation 00054 00055 template<unsigned SPACE_DIM> 00056 PottsMeshWriter<SPACE_DIM>::PottsMeshWriter(const std::string& rDirectory, 00057 const std::string& rBaseName, 00058 const bool clearOutputDir) 00059 : AbstractMeshWriter<SPACE_DIM, SPACE_DIM>(rDirectory, rBaseName, clearOutputDir), 00060 mpMesh(NULL), 00061 mpIters(new MeshPottsWriterIterators<SPACE_DIM>), 00062 mpNodeMap(NULL), 00063 mNodeMapCurrentIndex(0) 00064 { 00065 mpIters->pNodeIter = NULL; 00066 mpIters->pElemIter = NULL; 00067 } 00068 00069 template<unsigned SPACE_DIM> 00070 PottsMeshWriter<SPACE_DIM>::~PottsMeshWriter() 00071 { 00072 if (mpIters->pNodeIter) 00073 { 00074 delete mpIters->pNodeIter; 00075 delete mpIters->pElemIter; 00076 } 00077 00078 delete mpIters; 00079 00080 if (mpNodeMap) 00081 { 00082 delete mpNodeMap; 00083 } 00084 } 00085 00086 template<unsigned SPACE_DIM> 00087 std::vector<double> PottsMeshWriter<SPACE_DIM>::GetNextNode() 00088 { 00089 if (mpMesh) 00090 { 00091 // Sanity check 00092 assert(this->mNumNodes == mpMesh->GetNumNodes()); 00093 00094 std::vector<double> coordinates(SPACE_DIM+1); 00095 00096 // Get the node coordinates using the node iterator (thus skipping deleted nodes) 00097 for (unsigned j=0; j<SPACE_DIM; j++) 00098 { 00099 coordinates[j] = (*(mpIters->pNodeIter))->GetPoint()[j]; 00100 } 00101 coordinates[SPACE_DIM] = (*(mpIters->pNodeIter))->IsBoundaryNode(); 00102 00103 ++(*(mpIters->pNodeIter)); 00104 00105 return coordinates; 00106 } 00107 else 00108 { 00109 return AbstractMeshWriter<SPACE_DIM,SPACE_DIM>::GetNextNode(); 00110 } 00111 } 00112 00113 template<unsigned SPACE_DIM> 00114 ElementData PottsMeshWriter<SPACE_DIM>::GetNextElement() 00115 { 00116 if (mpMesh) 00117 { 00118 assert(this->mNumElements == mpMesh->GetNumElements()); 00119 00120 ElementData elem_data; 00121 elem_data.NodeIndices.resize((*(mpIters->pElemIter))->GetNumNodes()); 00122 for (unsigned j=0; j<elem_data.NodeIndices.size(); j++) 00123 { 00124 unsigned old_index = (*(mpIters->pElemIter))->GetNodeGlobalIndex(j); 00125 elem_data.NodeIndices[j] = mpMesh->IsMeshChanging() ? mpNodeMap->GetNewIndex(old_index) : old_index; 00126 } 00127 00128 // Set attribute 00129 elem_data.AttributeValue = (*(mpIters->pElemIter))->GetAttribute(); 00130 ++(*(mpIters->pElemIter)); 00131 00132 return elem_data; 00133 } 00134 else 00135 { 00136 return AbstractMeshWriter<SPACE_DIM, SPACE_DIM>::GetNextElement(); 00137 } 00138 } 00139 00141 template<unsigned SPACE_DIM> 00142 void PottsMeshWriter<SPACE_DIM>::WriteFilesUsingMesh(PottsMesh<SPACE_DIM>& rMesh) 00143 { 00144 this->mpMeshReader = NULL; 00145 mpMesh = &rMesh; 00146 00147 this->mNumNodes = mpMesh->GetNumNodes(); 00148 this->mNumElements = mpMesh->GetNumElements(); 00149 00150 typedef typename AbstractMesh<SPACE_DIM,SPACE_DIM>::NodeIterator NodeIterType; 00151 mpIters->pNodeIter = new NodeIterType(mpMesh->GetNodeIteratorBegin()); 00152 00153 typedef typename PottsMesh<SPACE_DIM>::PottsElementIterator ElemIterType; 00154 mpIters->pElemIter = new ElemIterType(mpMesh->GetElementIteratorBegin()); 00155 00156 // Set up node map if we might have deleted nodes 00157 mNodeMapCurrentIndex = 0; 00158 if (mpMesh->IsMeshChanging()) 00159 { 00160 mpNodeMap = new NodeMap(mpMesh->GetNumAllNodes()); 00161 for (NodeIterType it = mpMesh->GetNodeIteratorBegin(); it != mpMesh->GetNodeIteratorEnd(); ++it) 00162 { 00163 mpNodeMap->SetNewIndex(it->GetIndex(), mNodeMapCurrentIndex++); 00164 } 00165 } 00166 WriteFiles(); 00167 } 00168 00169 template<unsigned SPACE_DIM> 00170 void PottsMeshWriter<SPACE_DIM>::WriteFiles() 00171 { 00172 std::string comment = "# " + ChasteBuildInfo::GetProvenanceString(); 00173 00174 // Write node file 00175 std::string node_file_name = this->mBaseName + ".node"; 00176 out_stream p_node_file = this->mpOutputFileHandler->OpenOutputFile(node_file_name); 00177 00178 // Write the node header 00179 unsigned num_attr = 0; 00180 unsigned max_bdy_marker = 1; // as we include boundary node information in the node file 00181 unsigned num_nodes = this->GetNumNodes(); 00182 00183 *p_node_file << num_nodes << "\t"; 00184 *p_node_file << SPACE_DIM << "\t"; 00185 *p_node_file << num_attr << "\t"; 00186 *p_node_file << max_bdy_marker << "\n"; 00187 *p_node_file << std::setprecision(6); 00188 00189 // Write each node's data 00190 for (unsigned item_num=0; item_num<num_nodes; item_num++) 00191 { 00192 std::vector<double> current_item = this->GetNextNode(); 00193 *p_node_file << item_num; 00194 for (unsigned i=0; i<SPACE_DIM+1; i++) 00195 { 00196 *p_node_file << "\t" << current_item[i]; 00197 } 00198 *p_node_file << "\n"; 00199 } 00200 *p_node_file << comment << "\n"; 00201 p_node_file->close(); 00202 00203 // Write element file 00204 std::string element_file_name = this->mBaseName + ".cell"; 00205 out_stream p_element_file = this->mpOutputFileHandler->OpenOutputFile(element_file_name); 00206 00207 // Write the element header 00208 unsigned num_elements = this->GetNumElements(); 00209 00211 double first_elem_attribute_value = (*(mpIters->pElemIter))->GetAttribute(); 00212 if (first_elem_attribute_value != 0) 00213 { 00214 num_attr = 1; 00215 } 00216 00217 *p_element_file << num_elements << "\t"; 00218 *p_element_file << num_attr << "\n"; 00219 00220 // Write each element's data 00221 for (unsigned item_num=0; item_num<num_elements; item_num++) 00222 { 00223 // Get data for this element 00224 ElementData elem_data = this->GetNextElement(); 00225 00226 // Get the node indices owned by this element 00227 std::vector<unsigned> node_indices = elem_data.NodeIndices; 00228 00229 // Write this element's index and the number of nodes owned by it to file 00230 *p_element_file << item_num << "\t" << node_indices.size(); 00231 00232 // Write the node indices owned by this element to file 00233 for (unsigned i=0; i<node_indices.size(); i++) 00234 { 00235 *p_element_file << "\t" << node_indices[i]; 00236 } 00237 00238 // Write the element attribute if necessary 00239 if (elem_data.AttributeValue != 0) 00240 { 00241 *p_element_file << "\t" << elem_data.AttributeValue; 00242 } 00243 00244 // New line 00245 *p_element_file << "\n"; 00246 } 00247 00248 *p_element_file << comment << "\n"; 00249 p_element_file->close(); 00250 } 00251 00253 // Explicit instantiation 00255 00256 template class PottsMeshWriter<1>; 00257 template class PottsMeshWriter<2>; 00258 template class PottsMeshWriter<3>;